546@2023@IJCAI

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#1 A Diffusion Model with Contrastive Learning for ICU False Arrhythmia Alarm Reduction [PDF] [Copy] [Kimi] [REL]

Authors: Feng Wu, Guoshuai Zhao, Xueming Qian, Li-wei H. Lehman

The high rate of false arrhythmia alarms in intensive care units (ICUs) can negatively impact patient care and lead to slow staff response time due to alarm fatigue. To reduce false alarms in ICUs, previous works proposed conventional supervised learning methods which have inherent limitations in dealing with high-dimensional, sparse, unbalanced, and limited data. We propose a deep generative approach based on the conditional denoising diffusion model to detect false arrhythmia alarms in the ICUs. Conditioning on past waveform data of a patient, our approach generates waveform predictions of the patient during an actual arrhythmia event, and uses the distance between the generated and the observed samples to classify the alarm. We design a network with residual links and self-attention mechanism to capture long-term dependencies in signal sequences, and leverage the contrastive learning mechanism to maximize distances between true and false arrhythmia alarms. We demonstrate the effectiveness of our approach on the MIMIC II arrhythmia dataset for detecting false alarms in both retrospective and real-time settings.